Charger Solar

July 12, 2011 By: Admin Category: Solar Charger

The Solar Battery Charger

Executive Summary about Charger Solar by Anna Stone

Advancements in technology have reduced the sizes and weights of solar panels, while increasing their efficiency. This allows for small lightweight portable solar chargers to be produced. There are several advantages for using portable solar chargers and solar panels. Solar panels are more effective in colder temperatures. The above fact, combined with the increased effectiveness of solar panels, has made solar chargers an attractive method of powering or recharging small electronic gadgets.

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Solar Home

July 11, 2011 By: Admin Category: Solar Home

Home Sweet Solar Home – Making Homes Better With Solar Technology

Executive Summary about Solar Home by Anne Clarke

By now many people know it is possible to generate energy without the use of dwindling traditional resources. This stimulated atmospheric cycle is the product of a solar biosphere that remains in constant, gradual motion. You can draw energy directly from the sunlight, you can save money on energy costs, and you can be a big part of the effort to protect our planet. Remember, though, solar panels are not the only type of solar technology available that can harvest a decent alternative to electricity from the sun. There are wind turbines, solar panels, biospheres, and many other innovative solar power mechanisms that have made headway in an extreme scientific objective to help protect the earth. Despite what many people might believe, there are solar solutions available as alternative energy sources that virtually anyone can choose over electrical energy. Soon construction companies for homes, office buildings, apartment complexes, and more will adopt new methods of design that will dovetail more easily with solar technology.

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Wind Generators

July 02, 2011 By: Admin Category: Wind Power

What Are the Benefits of Wind Generators?

Executive Summary about Wind Generators by Gallen Ho

You may have noticed that there are more wind generators out there now than ever before. You can easy find a professional contractor with the experience to install home wind generators. You can even buy a wind generator kit that allows you to build it from the pieces it comes with. This is a great way to get the benefits from wind generators for the lowest possible price.

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Solar Energy Generating System

June 29, 2011 By: Admin Category: Solar Power, Solar Prototype

Beach Ball by Tony Leung

Beach Ball designed by industrial designer Tony Leung, is the concept of solar energy generating system in Abu Dhabi between Saadiyat Island and Yas Island. This system has a photovoltaic panel that is contained in the inflatable transparent latex material.

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Solar Applications

June 21, 2011 By: Admin Category: Solar Power

Solar Energy Applications

Solar energy technologies use energy from the sun to produce heat, light, hot water, electricity, and even cooling, for homes, commercial and industrial.

There are a variety of technological applications that have been developed to take advantage of solar energy. Technology can be read further below.

Photovoltaics System

Solar cells work by converting sunlight directly into electricity. The electrons in the semiconductor material, the material used to capture sunlight, will move when the sun’s energy in the form of photons hit it. Solar energy is forcing the electrons to move, occur continuously, and consequently there is also a continuous electricity production. Process, which turns sunlight (photons) into electricity (voltage), called the photovoltaic effect.

Solar Cell Module

Solar cells are usually organized into modules that each module can consist of 40 solar cells. Some modules can be arranged to form a PV line fitted with a fixed angle facing south. Or even could be placed in a sun-tracking device, to get more solar energy throughout the day. Several rows of PV could produce enough power for a house. As for industrial applications or power companies, hundreds of lines of PV can be linked to form one large PV systems and sufficient to meet the electricity needs.

Thin Film Solar Cell

Thin film solar cells use several layers of semiconductor material with a thickness in the micrometer scale. Technology allows to create solar cells integrated into rooftops to the skylights. Even solar cells are designed for applications having the same power with actual roof.

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BP Solar

June 16, 2011 By: Admin Category: General

British Petroleum – Solar Products Manufacture

Executive Summary about BP Solar by Richard Chapo

British Petroleum was once known for their petroleum products. How times have changed. BP is now one of the biggest producers of solar products.

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Solar Wind

February 03, 2011 By: Admin Category: Solar Power, Wind Power

Solar Wind by Francesco Colarossi, Giovanna Saracino and Luisa Saracino

To build a big wind power generator needed a large enough space to put many large-sized turbines.

Designer Francesco Colarossi, Giovanna Saracino and Luisa Saracino have a solution for this problem by utilizing the empty space below the flyover. This concept is called “Solar Wind.”

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Solar Roadways

January 29, 2011 By: Admin Category: Solar Heater

Solar Powered Roadways by Rajib Mallick

Rajib Mallick, a professor from Worcester Polytechnic Institute developing anti-freezing pipeline, filled with liquid in it.

The pipe will be planted on the roadways and absorb heat from the sun then stored in insulated chamber. The liquid in the pipe when heated would be released to melt existing snow.

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Solar Powered Tree

October 22, 2010 By: Admin Category: Solar Tree

Solar Powered Tree by Tourism London

In an effort to reduce the amount of grid electricity used in their offices, Tourism London has announced the world’s tallest solar powered tree that will be able to produce about 8.6KW of power. Electricity generated will provide income to pay for the project during the contract period. It was designed to be a visual landmark to highlight the importance of clean, renewable energy and features three pole mounted array of photovoltaic modules. It stands at seven meters tall and has 27 leaves. The whole project aims to produce 10,000 kWh of electricity every year, which is about half of what’s taking office each year, and will also help offset about 10 tons of CO₂ per year from coal-fired power plants.

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Space Solar Power

February 25, 2010 By: Admin Category: Solar Cells

Space Solar Power System

Like the story of a fictional movie, but Japanese space agency plan so serious: In 2030 they will capture solar energy in space and sends it to Earth via laser or microwave.

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Solar Power Plant

December 08, 2009 By: Admin Category: Solar Power

Top 5 World’s Largest Solar Power Plants

1. Olmedilla Park Solar Power Plant

(in Olmedilla de Alarcón, Spain, 60 MW) Finished in September 2008. This power plant uses 162,000 average photovoltaic solar panel to deliver 60 MW of electricity on a sunny day. The whole factory was completed in 15 months at a cost of about 530 million U.S. dollars current exchange rate. Olmedilla built with conventional solar panels, which are made with silicon and tend to heavy and expensive.

2. Puertollano Park Solar Power Plant

(Spain, 50 MW) in 2008 Renovalia develop the power station in Puertollano, Ciudad Real, residential energy parks with an installed capacity of 50 megawatts (MW). The power generated here is equivalent to the annual domestic consumption of electricity of about 39,000 households. The energy produced here will replace the theoretical disposal 84,000 tons CO₂/year or 2.1 million tons of CO₂ over 25 years during the production.

3. Moura Solar Power Station

(Portugal, 46 MW) Completed December 2008. This solar power plant is placed in the municipality of Moura, Alentejo, Portugal, one of the sunniest areas in Europe and besides one of the most economically depressed. The construction involves two stages, first with a built in 13 months and completed in 2008, and the rest will be completed in 2010, with a total cost of € 250 million for the project. The power plant will have an installed capacity of 46 mwp, by more than 376,000 solar panels. Nearly 190,000 panels (32 MW) installed in permanent structures, 52,000 (10 MW) in a single-axis trackers, which follow the sun in the sky, and further 20 MW of power capacity will be added during phase 2 project. This will occupy an area of 320 hectares (130 acres), producing 88 GWh of electricity per year.

4. Waldpolenz Solar Park

(Germany, 40 MW) 550,000 First Solar thin-film CdTe modules. Completed in December 2008 Waldpolenz Solar Park, which is the world’s largest thin-film photovoltaic (PV) power system, built at a military air base east of Leipzig in Germany. The power plant 40-megawatt solar power system using state-of-the-art thin film technology. 550,000 First Solar thin film modules are used, which supplies 40,000 MWh of electricity per year. The investment costs for solar parks Waldpolenz Euro 130 million.

5. Arnedo Solar Plant

(Spain, 36 MW). Completed in October 2008, power plant that produces 34 GWh per year, which would own 12,000 households and prevent 375,000 tons of CO₂. Facilities in seven acres and 172,000 panels houses. Project budget of about € 180,000,000. La Rioja, a region of Spain known for its wine, already covers 62% of electricity with enhanced resources.

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Solar Inc

December 04, 2009 By: Admin Category: Solar Power

First Solar Inc. and Ordos City signing MoU in Construction of 2 GW Solar Electricity Generator

Solar electricity generator with a capacity of 2 GW may be far from our imagination, but not in China. First Solar Inc., A solar power company from the United States, will build the solar electricity generator in Ordos city, in the province of  Inner Mongol. This project is the development of the world’s largest solar electricity generator. The signing between them have been done at September 8, 2009 at the headquarters of First Solar Inc. in Tempe, Arizona, witnessed by Wu Bangguo, Chairman of the Standing Committee of the National People’s Congress.

“We are proud of the signing of this MoU” said Mike Ahearn, chief executive of First Solar Inc. was quoted as saying by APP.

Government of the United States and China can work together to reduce the cost of electricity from solar electricity generator connected to the network which will be competitive with electricity from traditional energy sources and create a blueprint for accelerating large-scale development of solar energy utilization of the world to prevent / reduce the impact of climate change, he added.

The MOU underscores a long-term partnership between First Solar Inc. and Ordos City, which First Solar Inc. will also consider making investments in the Ordos solar cells.

“We are very pleased to partner with one of the major players in industry of solar electricity generator technology in the project that will impact on low-carbon production in the Ordos.” said Cao Zhichen, deputy mayor of Ordos. For this project the Government of Ordos city will provide 65 square kilometers of land.

“Discussions with First Solar Inc. on the construction of the factory in China is a demonstration for investors in China that they can be confident of investing in high technology fields,” he said further.

China actively increasing the production capacity of electricity cheaper than solar energy sources as part of its national goal to achieve 10 percent energy supply from renewable energy sources by 2010 and 15 percent in the year 2020 including the energy source of wind, hydro, biomass and solar.

Currently, the installed capacity of solar electricity generator in China around 90 MW. Government of China plans to boost the utilization of solar energy from the initial target of just 1.8 GW in 2020 to 2 GW by 2011 and 10 to 20 GW by 2020 as announced in a press conference of the MoU signing.

The first phase of Ordos city solar electricity generator is building 30 MW of project demonstration is planned to begin in June 2010. The next phase, respectively built solar electricity generator with a capacity of 100 MW and 870 MW is expected to be completed by the end of 2014. While the last phase of 1000 MW will be completed by the end of 2019.

Based on the MoU, during the initial phase of implementation, First Solar Inc. will actively study the possibility of development module and manufacturing suppliers in the Ordos. First Solar Inc. also plans to expand its supply chain for the production of thin-film photovoltaic modules and used module recycling.

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Photovoltaics

November 30, 2009 By: Admin Category: Solar Cells

The history of “Photovoltaic”

The history of “Photovoltaic” (PV) industrial development has been running about 50 years, and have been many studies done in the hope that one day could produce cheap solar cells and feasible compared with artificial electricity (hydro or nuclear) to solve the problem of availability of environment friendly electricity at all levels of this world.

In the late 19th century, solar electricity discovered by German physicist named Alexandre Edmond Becquerel accident where the sun rays fall on the solution of electro-chemical research materials, so the charge of electrons in the solution increases, there is no scientific explanation of the event. Not until the early 20th century, Albert Einstein called the discovery of this natural electrical event with “Photoelectric Effect”, which is the basic understanding of the “Photovoltaic Effect” (Albert Einstein got the Nobel Prize in Physics).

“Photoelectric Effect” comes from Einstein’s observations on a plate of metal release “photon” particles of light energy when exposed to sunlight. Photon continuously urged metal atoms and form a particle “Photon Energy”-is the wave of light energy.

Ultraviolet light waves, light that are high charged photon energy and short wavelength, while red light (infra-red) is low charged photon energy and long waves.

Then around the year 1930, research continued and related to discovery of the “Quantum Mechanics” concept, to create new technologies “solid-state”, which then the Bell Telephone Research Laboratories company create the first solid Solar Cell.

Year 1950 – 1960, technology of solar cell design and efficiency continued and applied to the spacecraft (photovoltaic energies). In 1970′s, the world encourage “renewable” alternative energy sources and environmentally friendly, then the PV is applied to the “low power warning systems” and “offshore buoys” (but the PV production could not be much because it is still “handmade”).

Just in 1980, the PV companies joined with government energy agencies in order to produce the PV cells in large numbers, so the price of solar cells can be more suppressed as low as possible.

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Solar Pump

November 25, 2009 By: Admin Category: General

What Is So Fascinating About Solar Pump

Solar-powered water pumps are an effective alternative to conventional gas or electric pumps. Modern pumps are powered by solar energy effectively in the world, including India, where they are often used for irrigation and drinking water.

The main advantage of solar pumps is that they work for free. A solar array connected to the pumping mechanism gains all the required power from simple sunshine. This also means that the system independently. There is no need for complicated wiring for the electricity and outside fuel is not needed.

The amount of pollution caused by the use of conventional pump has also completely eliminated. This is a big advantage, especially when used for irrigation on the farms where pollution can possible on site damage. Keeping the fossil fuels from the equation for the pumping of water will reduce potential contamination. In addition, the use of solar energy offers many benefits for agriculture, the farmers, for example, a solar pump used in an area of low-lying, which often flooded or to move the water used to feed animals and plants.

For any system of water pump, both large and small, the installation of solar systems is one of the easiest and most profitable. No long procedures for determining the wiring of the solar panels, and there is no need for extra fuel. Many of these systems, also the digital monitoring and control instruments adding for convenience.

Worldwide, the solar energy is one of the best ways of powering pump instrument. Simple installation, low maintenance, and reducing pollution are just some of the many benefits.

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Solar Cell

November 24, 2009 By: Admin Category: Solar Cells

What Does Solar Cell Mean?

You may have seen a calculator that has a solar cell? calculator that does not need batteries, and in some cases do not even have the off button. As long as you have enough light, so the calculator can be on at any time and forever. You may have seen larger solar panels, such as in housing or traffic lights, haven’t you? In this article I will review how solar cell work so it can deliver the energy and drive an electronic device.

Today the demand for electricity has become a major requirement in all corners. The presence of power plants sometimes do not solve the need for electricity especially in remote areas where the terrain is always an excuse. Here an alternative energy that can be easily found in nature and can be used as an alternative free energy replacing conventional electricity, because it can turn on household electronics such as televisions, radios and lights.

Solar cells made from pieces of a very small silicon coated with special chemicals to form the basis of solar cells. Solar cells generally have a minimum thickness of 0.3 mm is made from semiconductor materials incision with positive and negative poles. Each solar cell produces usually voltage 0.5 volts. Solar cells is an active element (semiconductor) that utilizes photovoltaic effect to transform solar energy into electrical energy.

Solar cells contain a connection (junction) between two thin layers made of semiconductor materials, each of which is known as a semiconductor type “P” (positive) and semiconductor type “N” (negative).

N-type semiconductor made of silicon crystals and there are also some other materials (typically phosphorus) within the limits that these materials can provide an excess of free electrons.

Electrons are sub atomic particles are negatively charged, so that the silicon alloy in this case known as N-type semiconductor (Negative). P-type semiconductor made of silicon crystal in which there is a small amount of other material (typically boron) which caused the shortage of material free electrons. Lack or loss of electrons is called a hole. Because there is no or lack of electrons electrically negative charged then the silicon alloys in this case as a semiconductor type-P (Positive).

Composition of a solar cell, the same as a diode, consisting of two layers, called PN junction. PN junction obtained by staining a pure semiconductor silicon (valence 4) with the impurity valence 3 on the left side, and one on the right impurity stained with valence 5.

The effect of the electric field in a PV cell

Operation of a PV cell

Basic structure of a generic silicon PV cell

Thus formed on the left side that is not pure silicon again and called P type silicon, while the right side is called silicon type N. In the pure silicon there are two kinds of electrical charge carriers are balanced. Positive electric charge carriers called holes, while the negative are called electrons. After a desecration process, in the P type silicon formed holes (positive charge carriers) in a very large number compared with the electron. Therefore, in the P type silicon holes are majority charge carriers, while the electrons are minority carriers. Conversely, in the N type silicon is formed of electrons in a very large number so-called majority carriers, and holes called minority carriers.

In the silicon rod there was interaction between the P and the N. Therefore called the PN junction. When present, the P associated with the positive pole of a battery, while the negative polar associated with the N, then there is a relationship called “forward bias”.

Under forward bias, electrical currents arise in a series due to both types of charge carriers. So the electric current flowing in the PN junction is caused by the movement of electron and the movement of holes. An electric current is flowing in the direction of holes movement, but opposite direction with the movement of electrons. Just to further explain, electrons moving in the conductor material can lead to electrical energy. And electrical energy is called as an electric current that flows in the opposite direction to the movement of electrons.

But, if the P associated with negative pole of batteries and the N associated with positive pole, then now formed a relationship called “reverse bias”. In these circumstances, the hole (positive charge carriers) can be connected directly to the positive pole, while the electrons are also directly to the positive pole. So, clearly in the PN junction there is no movement of majority charge carriers either the holes or electrons. Meanwhile, the minority charge carriers (electrons) in the part P moves trying to reach the positive pole of the batteries. Similarly, the minority charge carriers (holes) in the N also moved to reach the negative pole. Therefore, in a state of reverse bias, in the PN junction there is also output current even in very small amounts (micro amperes). This current is often called the reverse saturation current or leakage current.

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Anything interesting in reverse bias. When the temperature of PN junction raised they will be able to enlarge leakage current. Means that if given the energy (heat), the minority charge carriers in the PN junction grows. Because the light is one form of energy, so if there is light that hit a PN junction may also produce enough energy to generate charge carriers. This symptoms are called photoconductive. Based on the photoconductive symptoms made of photodiode electronic components from PN junction.

In reverse bias, with increasing intensity of light that hit photodiode can increase the level of leakage current. Leakage currents can also be enlarged by increasing the battery voltage (reverse voltage), but the addition of leakage currents were not significant. When the batteries in the reverse bias circuit is removed and replaced with a load of resistance, the provision of light that can cause charge carriers both holes and electrons. If the illumination light is increased, current output was greater. Such symptoms are called photovoltaic. Light can provide enough energy to enlarge the number of holes in the P and the number of electrons on the N. Based on the symptoms of this photovoltaic electronic components can be created photovoltaic cell. Because usually the sun as a source of light, the photovoltaic cell is also called the solar cell (solar cells) or a solar energy converter.
So the solar cell is essentially a large photo diode and designed by referring to the photovoltaic symptoms so that could produce the greatest possible power. P type silicon is the very thin surface layer so that light can penetrate directly reach the junction. Part P is given ring-shaped nickel layer, as a positive output terminal. Under the P is the N type that is coated with nickel as well as the negative output terminal.

To obtain a large enough power required much of solar cells. Usually, solar cells arranged form the shape of the panel, and is called the photovoltaic panels (PV). PV as a source of electric power was first used in satellites. Then PV as an energy source for cars, so there are solar electric car. Now, in foreign countries, PV has started to be used as a roof or wall of the house. Sanyo has made even a semi-transparent PV that can be used as a substitute for glass.

After getting the output of the solar cell is a direct electrical current can be used to load utilized. But also the electric current can be used as a charge stored by the battery to be used when needed, especially at night because there was no sun.

If the solar cell is used for storage into the battery, then the resulting voltage magnitude must be above the battery specification. For example the battery used is 12 volts, the voltage produced by solar cell must be above 12 volts in order to perform charging.

We recommend that before carrying out the charging battery should be empty because the incoming flow will be filled with the maximum. The unit capacity of a battery is the Ampere-hour (Ah) and these characteristics are usually found on the label of a battery. For example a battery with 10 Ah capacity will fill up for 10 hours with the solar cell output currents of 1 Ampere.

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